CN105233594B - A kind of cleaning net of real-time embedded control changes clothes drying unit automatically - Google Patents

Abstract

Drying unit is changed clothes automatically the present invention relates to a kind of cleaning net of real-time embedded control, control technology field when true.The present invention includes control module, automatic screen pack exchanger structure, jet-propelled dedusting mechanism, water jet dedusting mechanism, baker, apparatus for treating sewage, cistern；Jet-propelled dedusting mechanism is connected with water jet dedusting mechanism, water jet dedusting mechanism is connected with baker, apparatus for treating sewage is connected with jet-propelled dedusting mechanism, water jet dedusting mechanism, cistern respectively, cistern is connected with water jet dedusting mechanism, and automatic screen pack exchanger structure is connected with jet-propelled dedusting mechanism, water jet dedusting mechanism, baker respectively.The present invention is simple in construction, with low cost, simple operation, cleaning net pressure change can be detected according to differential pressure pickup probe, the enrichment degree for cleaning online dust is analyzed by one-chip computer module, cleaning net is changed clothes automatically, dried, collected, and processing Recovery and recycle is carried out to cleaning sullage, plays a part of energy-conserving and environment-protective.

Description

A kind of cleaning net of real-time embedded control changes clothes drying unit automatically

Technical field

Drying unit is changed clothes automatically the present invention relates to a kind of cleaning net of real-time embedded control, belongs to technique of real-time control Field.

Background technology

Widely available with industrialized production, the emission treatment problem of useless smoke waste gas increasingly causes the concern of people.Though So present treatment technology there is chemical agent to neutralize, special dedusting waste discharge equipment, if but chemical agent neutralize and deal with improperly, It is easy to bring secondary pollution, special dedusting waste discharge equipment cost is high, complicated, and needs personnel to change cleaning net, it is time-consuming Arduously.Accordingly, it would be desirable to which a kind of can change the device of cleaning net automatically.

The content of the invention

The technical problem to be solved in the present invention is：The present invention provides a kind of cleaning net of real-time embedded control and changed clothes automatically The problem of drying unit, artificial cleaning draping for solving special dedusting waste discharge equipment.Simple in construction, reduction manpower is reached Cost, the purpose of environment-friendly high-efficiency.

The technical scheme is that：A kind of cleaning net of real-time embedded control changes clothes drying unit, including control automatically Module 1, automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5, apparatus for treating sewage 6, retaining Pond 7；The jet-propelled dedusting mechanism 3 is connected with water jet dedusting mechanism 4, and water jet dedusting mechanism 4 is connected with baker 5, dirty Hydrotreater 6 is connected with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, cistern 7 respectively, and cistern 7 is removed with water jet Dirt mechanism 4 is connected, and automatic screen pack exchanger structure 2 is connected with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively, control Molding block 1 is connected with automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively.

The control module 1 include one-chip computer module 8, winding motor drive circuit 9, trap circuit 10, amplifying circuit 11, Heater circuit 12, blowing circuit 13, air compressor drive circuit 14；Wherein one-chip computer module 8 drives with winding motor respectively Circuit 9, trap circuit 10, heater circuit 12, blowing circuit 13, air compressor drive circuit 14 be connected, amplifying circuit 11 with Trap circuit 10 is connected.

The automatic screen pack exchanger structure 2 includes support frame I 15, transmission wheel I 16, discharging frame 17, cleaning net volume axle 18, working window Mouth 19, support frame II 20, transmission wheel II 21, roller 22, winding motor 23, differential pressure pickup 24；Wherein transmission wheel I 16 utilizes it Hollow internal structure is enclosed on support frame I 15, and discharging frame 17 is fixed on transmission wheel I 16, and cleaning net is placed on the top layer of discharging frame 17 Spool 18, the cleaning net that the one end of cleaning net volume axle 18 is extended passes sequentially through operation window 19, jet-propelled dedusting mechanism 3, water spray Formula dedusting mechanism 4, baker 5 reach the retracting device of opposite side,（Wherein operation window 19 and cleaning net volume axle 18 can be according to tool The working environment of body does corresponding adjustment, for example：When the environment-friendly type cleaning net that this is controlled in real time changes clothes drying unit application automatically When the exhaust dust device with bag of boiler, cleaning net is replaced by polyester fiber and its filtrate, drags health fiber and its filtrate or root The fibrous material and its filtrate selected according to specific requirement.）Differential pressure pickup 24, retracting device bag are connected with operation window 19 Containing support frame II 20, transmission wheel II 21, roller 22, winding motor 23, transmission wheel II 21 is enclosed on branch using its hollow internal structure On support II 20, roller 22 is taken turns on II 21 through transmission, and is secured to, and the bottom of transmission wheel II 21 is equipped with a winding motor 23, it is mutually permanently connected by gear.

The jet-propelled dedusting mechanism 3 include air compressor 41, appendix IV 42, one-level air chamber 43, two grades of air chambers 44, Air storage chamber 45, high pressure air rifle I 46, high pressure air rifle II 47, high pressure air rifle III 48, appendix III 49, appendix II 50, appendix I 51；Wherein the gas outlet of air compressor 41 is connected with one end of appendix IV 42, the other end and the one-level gas of appendix IV 42 Room 43 be connected, one-level air chamber 43 is connected with two grades of air chambers 44, and two grades of air chambers 44 are connected with air storage chamber 45, air storage chamber 45 respectively with it is defeated Tracheae III 49, appendix II 50, appendix I 51 one end be connected, appendix III 49, appendix II 50, appendix I 51 it is another End is connected with high pressure air rifle III 48, high pressure air rifle II 47, high pressure air rifle I 46 respectively.

The water jet dedusting mechanism 4 includes High-Pressure Compressor water pump 32, water-supply-pipe II 33, switch 34, switching Pipe I 35, switching pipe II 36, switching pipe III 37, giant III 38, giant II 39, giant I 40, water-supply-pipe I 52； Wherein the water inlet of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe I 52, the other end of water-supply-pipe I 52 and retaining Pond 7 is connected, and the delivery port of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe II 33, the other end of water-supply-pipe II 33 It is connected with switch 34, the one end of switch 34 respectively with switching pipe I 35, switching pipe II 36, switching pipe III 37 is connected, switching pipe I 35, switching pipe II 36, switch pipe III 37 the other end respectively with giant I 40, giant II 39, giant III 38 It is connected.

The baker 5 includes electric network 30, fan 31, ground wire 53, fan electromotor 54；Wherein electric network 30 is used as electricity In the heater circuit 12 of pyrogen part Access Control module 1, fan 31 and blowing circuit 13 of the fan electromotor 54 as control module 1 Component access blowing circuit 13 in.

The apparatus for treating sewage 6 includes sewage collecting funnel 25, sewage conveying tube 26, resistance sieve filtration water clarifier 27, purification Water delivery pipe 28, secondary waste water return duct 29；Wherein one end phase of the delivery port of sewage collecting funnel 25 and sewage conveying tube 26 Even, the other end of sewage conveying tube 26 is connected with the water inlet of resistance sieve filtration water clarifier 27, the purification of resistance sieve filtration water clarifier 27 Water delivery port is connected with one end of purified water delivery pipe 28, and the wastewater effluent mouthful of resistance sieve filtration water clarifier 27 flows back with secondary waste water One end of pipe 29 is connected, and the other end of purified water delivery pipe 28 is connected with the water inlet of cistern 7, secondary waste water return duct 29 The other end is connected with the water inlet of sewage collecting funnel 25.

The amplifying circuit 11 include resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, electric capacity C1, C2, C3, C4, C5, C6, C7, C8, amplifier 1, amplifier 2, amplifier 3, amplifier 4；Wherein resistance R1 one end, which is connected to, moves net The output end of the differential pressure pickup 24 of mechanism 2, another termination capacitor C1 one end, electric capacity C1 other end ground connection, resistance R2's One end is connected to the output end for the differential pressure pickup 24 for moving net mechanism 2, another termination capacitor C2 one end, the electric capacity C2 other end Ground connection, the "+" level of a resistance R3 termination amplifier 1, another to terminate on resistance R1 and electric capacity C1 line, resistance R4 one end The "+" level of amplifier 2 is connect, another to terminate on resistance R2 and electric capacity C2 line, the "-" level of amplifier 1 is defeated with amplifier 1 Go out end to be connected, the port 7 of amplifier 1 connects+12V voltages, and port 4 connects -15V voltages, and electric capacity C3 mono- terminates+12V voltages, the other end Ground connection, electric capacity C4 mono- terminates -15V voltages, and other end ground connection, the "-" level of amplifier 2 is connected with the output end of amplifier 2, amplified The port 7 of device 2 connects+15V voltages, and port 4 connects -12V voltages, and electric capacity C5 mono- terminates+15V voltages, other end ground connection, electric capacity C6 mono- Termination -12V voltages, other end ground connection, resistance R5 mono- terminates the output end of amplifier 1, another terminating resistor R7 one end, resistance The output end of R7 another termination amplifier 3, the ends of electric capacity C7 mono- are connected on resistance R5 and resistance R7 line, and another terminate at is put The output end of big device 3, the "-" level of amplifier 3 is connected on resistance R5 and resistance R7 line, resistance R6 one end and amplifier 2 Output end is connected, another terminating resistor R8, resistance R8 other ends ground connection, and the "+" level of amplifier 3 is connected on resistance R6 and R8 line On, the port 4 of amplifier 3 connects+12V voltages, and port 11 connects -12V voltages, and resistance R9 mono- terminates the output end of amplifier 3, another The "-" level of amplifier 4 is terminated, the ends of resistance R10 mono- are connected on the line of resistance R9 and amplifier 4, another to terminate the defeated of amplifier 4 Go out end, resistance R12 one end is connected with its adjustable side, the other end and electric capacity C8 one end connection, electric capacity C8 another termination amplification The output end of device 4, the "+" level of the termination amplifiers 4 of resistance R11 mono-, other end ground connection, the port 4 of amplifier 4 connects+12V voltages, Port 11 connects -12V voltages, the voltage signal U1 after the output end output amplification of amplifier 4.

The trap circuit 10 includes resistance R13, R14, R15, R16, R17, electric capacity C9, C10, C11, amplifier 5；Wherein Resistance R13 one end is connected with the output end of the amplifier 4 in amplifying circuit 11, another terminating resistor R14 one end, resistance R14 Another termination amplifier 5 "+" level, electric capacity C9 one end is connected in the line of the amplifier 4 in resistance R13 and amplifying circuit 11 On, the other end is connected with electric capacity C10, and the electric capacity C10 other end is connected on the line of resistance R14 and amplifier 5, electric capacity C11 One end is connected on resistance R13 and resistance R14 line, other end ground connection, and resistance R15 one end is connected in electric capacity C9 and C10 line On, the other end is connected with the output end of amplifier 5, and resistance R16 one end ground connection, the other end is connected with resistance R17, amplifier 5 "-" level is connected on resistance R16 and R17 line, and the resistance R17 other end is connected with the output end of amplifier 5, amplifier 5 Output end output voltage U2 is simultaneously connected with the one-chip computer module 8 in control module 1.

The winding motor drive circuit 9 include resistance R18, R19, R20, R21, R22, R23, N-type IGFET pipes Q1, Q2, p-type IGFET pipe Q3, Q4,5V power supplys U1, ground connection U2, winding motor M；Wherein 5V power supplys U1 and resistance R21 one end phase Even, resistance R21 other end one end respectively with resistance R18, resistance R23 one end, N-type IGFET pipes Q1 emitter e, N Type IGFET Q2 emitter e is connected, and the one end of resistance R18 respectively with resistance R19, resistance R20 is connected, resistance R19 and N-type IGFET pipes Q1 base stage b is connected, and resistance R20 is connected with p-type IGFET pipes Q3 base stage, p-type IGFET pipes Q3 emitter e Emitter e with p-type IGFET pipes Q4 is in parallel, while access ground connection U2, N-type IGFET pipes Q2 base stage access resistance R22 One end, resistance R22 other end access one-chip computer module 8, p-type IGFET pipes Q4 base stage is in parallel with the resistance R23 other end, One-chip computer module 8 is accessed simultaneously, N-type IGFET pipes Q1 colelctor electrode is in parallel with N-type IGFET pipes Q2 colelctor electrode, access simultaneously Winding motor M one end；P-type IGFET pipes Q3 colelctor electrode is in parallel with p-type IGFET pipes Q4 colelctor electrode, while accessing winding The motor M other end.

The present invention operation principle be：

When the present apparatus is started working, the differential pressure pickup 24 positioned at operation window 19 can be monitored on work operation window 19 in real time Clean the pressure coefficient of net.When the dirt ash for cleaning online, which is constantly enriched with, reaches certain pressure, biography is directly acted on by measuring pressure On the diaphragm of sensor, diaphragm is produced the micro-displacement being directly proportional to hydraulic pressure, the capacitance of sensor is changed, and use electronics This change of wireline inspection, and change the canonical measure signal of one corresponding pressure of output, two termination pressures of amplifying circuit 11 The output of gap sensor 24, the circuit improves common mode inhibition capacity, amplifier 1 and amplifier 2 using double high resistant change-over circuits The form of follower is connected into, input impedance can be farthest improved so that power network AC influence, noise, reference drift about To effective suppression.Because amplifying circuit 11 by differential amplification improves common-mode rejection ratio, but it can not disappear completely in measurement Except the interference of power supply signal, the accuracy of measurement is influenceed, so needing trap circuit 10 to abate the noise.Trap circuit 10 is by one Low-pass filter circuit and a high-pass filtering circuit are together in parallel, and the cascade number used is more, to the notch depth of interference signal It is bigger, but distortion is also higher, and the signal of de-noising is linked into one-chip computer module 8.

The signal is transferred to one-chip computer module 8, inside D/A converting transmissions to single-chip microcomputer.Monolithic machine testing, processing should After signal, one is provided to winding motor drive circuit 9, air compressor drive circuit 14, heater circuit 12, blowing circuit 13 Enabling signal, winding motor 23, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 work simultaneously.

After winding motor drive circuit 9 starts, the winding motor 23 in automatic screen pack exchanger structure 2 is controlled, driving is received Volume motor 23 works.By the dutycycle for the PWM for controlling driving winding motor 23, reaching makes winding motor 23 rotate certain circle Stop after number, the number of turns rotated is the occupied area size of operation window 19.Single-chip microcomputer is returned to after winding motor 23 stops 8 one work stop signals of module.Now, each signal output supervisor of one-chip computer module is changed into high-impedance state, jet-propelled to remove Dirt mechanism 3, water jet dedusting mechanism 4, baker 5 are stopped.

After air compressor drive circuit 14 starts, to the air in jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4 Compressor 41, High-Pressure Compressor water pump 32 provide an enabling signal, air compressor 41, High-Pressure Compressor water pump 32 start working.

After air compressor 41 in jet-propelled dedusting mechanism 3 works, air inlet constantly sucks air, using piston in vapour Reciprocating motion in cylinder carrys out compressed air, and air is constantly squeezed into one-level air chamber 43, two grades of air chambers 44, last all to squeeze into simultaneously Air storage chamber 45 is stored in, air storage chamber 45 is connected with high pressure air rifle I respectively by appendix I 51, appendix II 50, appendix III 49 46th, the pressure-air in high pressure air rifle II 47, high pressure air rifle III 48, air storage chamber 45 passes through high pressure air rifle I 46, high pressure air rifle II 47th, high pressure air rifle III 48 constantly sprays high-voltage high-speed airflow to the cleaning net positioned at the jet-propelled front of dedusting mechanism 3.It is jet-propelled The local containing that swept surface is isolated from the outside by dedusting mechanism, gas is in the presence of bleed pressure with winged higher than that can make dust Kick up the so-called floating velocity come and be ejected into body surface, the dust particle for being absorbed to energy is promptly moved in suspended state. The dust particle of suspended state follows air flow, and due to the negative pressure that dust arrester is produced, the dust of suspended state follows air Absorb and separate towards dust arrester directed flow and by dust arrester, dust is by centralized collection.It is local to contain the reduction external world Interference of the air-flow to internal gas flow directed flow, it is to avoid raised outside dust, it is to avoid association dust pollution, reduces noise and can absorb few Measure outside air supplement internal negative pressure.Built-in multiple high pressure air rifles so that jet-impingement area, which expands, reaches what large area was cleaned Purpose.Speed air flow increase and exceed floating velocity (the absolute value numerical value of floating velocity be equal to particle in still air In free-falling maximal rate) or external force effect it is very violent when, powder granule strive de- cohesive force and throw dissipate in atmosphere In suspended state, the method for forcing air guided flowing is elimination or cleans the maximally efficient method of the dust of suspended state. The rich dust-collector in net is cleaned in the cleaning of jet-propelled dedusting mechanism 3 that Gu Caiyong is sprayed with high-voltage high-speed airflow.

After High-Pressure Compressor water pump 32 in water jet dedusting mechanism 4 works, constantly water is inhaled from cistern 7 Enter into pump, one very big pressure is constantly then produced to water by pressure-air.Now, rinse water flows through water-supply-pipe II and arrived Dutch parallel operation 34, switching pipe I 35, switching pipe II 36, switching pipe III 37 are flowed into by switch.Due to switching the osculum of pipe ozzle Footpath is designed, and the rinse water flowed through is received again by the extruding of ozzle, with the water flow jet of high-voltage high-speed to positioned at water jet dust removal machine The cleaning in the front of structure 4 is online.Water jet dedusting mechanism 4 is using the wet dedusting of high-voltage high-speed current, and current are by water jet dedusting The one end of mechanism 4 tangentially enters, after impact wire side, in the flowing of the water jet inwall of dedusting mechanism 4.Water impact inwall simultaneously produces water Flower, water smoke and with air motion, in outer casing inner wall formation about 3 ~ 5m/s moisture film., will when spray, moisture film and dust meet Dust catching.Under the action of the centrifugal force, dust and water smoke can be thrown on the moisture film of outer casing inner wall, then flow into bottom Sewage collecting funnel 25.

By jet-propelled dedusting mechanism 3, the high-voltage high-speed waste gas of water jet dedusting mechanism 4 and sewage in sewage collecting funnel 25 are met mixing, and waste gas is filtered, and waste gas sewage mixture sewage conveying tube 26 flows through resistance sieve filtration water clarifier 27, and resistance is sieved through Filter water purifier 27 and filtration principle progressive structure mode be sieved through using resistance, formed by multi-stage filter core head and the tail concatenation, filter core precision by It is low to high to be arranged in order, to realize that multi-stage filter core shares retention dirt, blocked and artificial blowdown, time unpicked and washed so as to reduce filter core The cycle of filter core is changed in number and extension.Gone to be more than 5 μm of floating materials in water removal with 1 μm or 5 μm of PP cotton polypropylene fibre filter cores And a material matter, clarify water source；Heterochromatic peculiar smell in water can be effectively adsorbed with 5 μm of bar-shaped active carbon filter cores of CTO pressure viscosity, is partly removed Fall organic, inorganic impurity, can effectively adsorb the chlorine residue in water, improve the water quality of water.Pure water by filtering is defeated by purified water Pipe 28 is sent to flow directly into cistern 7, the waste water of remainder flows back into sewage collecting funnel 25 through secondary waste water return duct 29, with Waste gas sewage mixture again flows through apparatus for treating sewage 6 and filtered.

The beneficial effects of the invention are as follows：The present invention is simple in construction, reduces human cost, environment-friendly high-efficiency can be according to pressure difference The pressure condition of the real-time monitoring window of sensor, by the grey enrichment degree of one-chip computer module analysis cleaning net dirt, while to Secondary recovery, purification, recycling are carried out in the waste gas sewage after cleaning net cleaning, plays a part of energy-conserving and environment-protective.

Brief description of the drawings

Fig. 1 is structure connection block diagram of the invention；

Fig. 2 is control module structure chart of the invention；

Fig. 3 is automatic screen pack exchanger structure structural representation of the invention；

Fig. 4 is jet-propelled dedusting mechanism structural representation of the invention；

Fig. 5 is water jet dedusting mechanism structural representation of the invention；

Fig. 6 is baker structure chart of the invention；

Fig. 7 is apparatus for treating sewage structure chart of the invention；

Fig. 8 is amplifying circuit schematic diagram of the invention；

Fig. 9 is trap circuit schematic diagram of the invention；

Figure 10 is winding motor driver circuit schematic diagram of the invention.

Each label in Fig. 1-10：1- control modules, 2- automatic screen pack exchanger structures, the jet-propelled dedusting mechanisms of 3-, 4- is water jet to be removed Dirt mechanism, 5- bakers, 6- apparatus for treating sewage, 7- cisterns, 8- one-chip computer modules, 9- winding motor drive circuits, 10- traps Circuit, 11- amplifying circuits, 12- heater circuits, 13- blowing circuits, 14- air compressor drive circuits, 15- support frames I, 16- Transmission wheel I, 17- discharging frames, 18- cleaning net volume axles, 19- operation windows, 20- support frames II, 21- transmission wheel II, 22- rollers, 23- winding motors, 24- differential pressure pickups, 25- sewage collecting funnels, 26- sewage conveying tubes, 27- resistance sieve filtration water clarifiers, 28- Purified water delivery pipe, 29- secondary waste water return ducts, 30- electric networks, 31- fans, 32- High-Pressure Compressor water pumps, 33- is defeated Water pipe II, 34- switch, 35- switching pipes I, 36- switching pipes II, 37- switching pipes III, 38- giants III, 39- giants II, 40- giant I, 41- air compressors, 42- appendixs IV, 43- one-level air chambers, bis- grades of air chambers of 44-, 45- air storage chambers, 46- high pressure air rifles I, 47- high pressure air rifles II, 48- high pressure air rifles III, 49- appendixs III, 50- appendixs II, 51- appendixs I, 52- water-supply-pipes I, 53- ground wires, 54- fan electromotors.

Embodiment

Below in conjunction with the accompanying drawings and specific embodiment, the invention will be further described.

Embodiment 1：As Figure 1-10 shows, a kind of cleaning net of real-time embedded control changes clothes drying unit automatically, including Control module 1, automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5, apparatus for treating sewage 6, Cistern 7；The jet-propelled dedusting mechanism 3 is connected with water jet dedusting mechanism 4, and water jet dedusting mechanism 4 connects with baker 5 Connect, apparatus for treating sewage 6 is connected with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, cistern 7 respectively, cistern 7 and water spray Formula dedusting mechanism 4 is connected, and automatic screen pack exchanger structure 2 connects with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively Connect, control module 1 is connected with automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively.

Embodiment 2, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 1, wherein：

The control module 1 include one-chip computer module 8, winding motor drive circuit 9, trap circuit 10, amplifying circuit 11, Heater circuit 12, blowing circuit 13, air compressor drive circuit 14；Wherein one-chip computer module 8 drives with winding motor respectively Circuit 9, trap circuit 10, heater circuit 12, blowing circuit 13, air compressor drive circuit 14 be connected, amplifying circuit 11 with Trap circuit 10 is connected.

Embodiment 3, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 2, wherein：

The automatic screen pack exchanger structure 2 includes support frame I 15, transmission wheel I 16, discharging frame 17, cleaning net volume axle 18, working window Mouth 19, support frame II 20, transmission wheel II 21, roller 22, winding motor 23, differential pressure pickup 24；Wherein transmission wheel I 16 utilizes it Hollow internal structure is enclosed on support frame I 15, and discharging frame 17 is fixed on transmission wheel I 16, and cleaning net is placed on the top layer of discharging frame 17 Spool 18, the cleaning net that the one end of cleaning net volume axle 18 is extended passes sequentially through operation window 19, jet-propelled dedusting mechanism 3, water spray Formula dedusting mechanism 4, baker 5, which are reached, is connected with differential pressure pickup 24 on the retracting device of opposite side, operation window 19, reclaim dress Put comprising support frame II 20, transmission wheel II 21, roller 22, winding motor 23, transmission wheel II 21 utilizes its hollow internal structure set On support frame II 20, roller 22 is taken turns on II 21 through transmission, and is secured to, and the bottom of transmission wheel II 21 is equipped with a winding Motor 23, is mutually permanently connected by gear.

Embodiment 4, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 3, wherein：

The jet-propelled dedusting mechanism 3 include air compressor 41, appendix IV 42, one-level air chamber 43, two grades of air chambers 44, Air storage chamber 45, high pressure air rifle I 46, high pressure air rifle II 47, high pressure air rifle III 48, appendix III 49, appendix II 50, appendix I 51；Wherein the gas outlet of air compressor 41 is connected with one end of appendix IV 42, the other end and the one-level gas of appendix IV 42 Room 43 be connected, one-level air chamber 43 is connected with two grades of air chambers 44, and two grades of air chambers 44 are connected with air storage chamber 45, air storage chamber 45 respectively with it is defeated Tracheae III 49, appendix II 50, appendix I 51 one end be connected, appendix III 49, appendix II 50, appendix I 51 it is another End is connected with high pressure air rifle III 48, high pressure air rifle II 47, high pressure air rifle I 46 respectively.

Embodiment 5, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 4, wherein：

The water jet dedusting mechanism 4 includes High-Pressure Compressor water pump 32, water-supply-pipe II 33, switch 34, switching Pipe I 35, switching pipe II 36, switching pipe III 37, giant III 38, giant II 39, giant I 40, water-supply-pipe I 52； Wherein the water inlet of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe I 52, the other end of water-supply-pipe I 52 and retaining Pond 7 is connected, and the delivery port of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe II 33, the other end of water-supply-pipe II 33 It is connected with switch 34, the one end of switch 34 respectively with switching pipe I 35, switching pipe II 36, switching pipe III 37 is connected, switching pipe I 35, switching pipe II 36, switch pipe III 37 the other end respectively with giant I 40, giant II 39, giant III 38 It is connected.

Embodiment 6, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 5, wherein：

The baker 5 includes electric network 30, fan 31, ground wire 53, fan electromotor 54；Wherein electric network 30 is used as electricity In the heater circuit 12 of pyrogen part Access Control module 1, fan 31 and blowing circuit 13 of the fan electromotor 54 as control module 1 Component access blowing circuit 13 in.

Embodiment 7, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 6, wherein：

The apparatus for treating sewage 6 includes sewage collecting funnel 25, sewage conveying tube 26, resistance sieve filtration water clarifier 27, purification Water delivery pipe 28, secondary waste water return duct 29；Wherein one end phase of the delivery port of sewage collecting funnel 25 and sewage conveying tube 26 Even, the other end of sewage conveying tube 26 is connected with the water inlet of resistance sieve filtration water clarifier 27, the purification of resistance sieve filtration water clarifier 27 Water delivery port is connected with one end of purified water delivery pipe 28, and the wastewater effluent mouthful of resistance sieve filtration water clarifier 27 flows back with secondary waste water One end of pipe 29 is connected, and the other end of purified water delivery pipe 28 is connected with the water inlet of cistern 7, secondary waste water return duct 29 The other end is connected with the water inlet of sewage collecting funnel 25.

Embodiment 8, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 7, wherein：

The amplifying circuit 11 include resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, electric capacity C1, C2, C3, C4, C5, C6, C7, C8, amplifier 1, amplifier 2, amplifier 3, amplifier 4；Wherein resistance R1 one end, which is connected to, moves net The output end of the differential pressure pickup 24 of mechanism 2, another termination capacitor C1 one end, electric capacity C1 other end ground connection, resistance R2's One end is connected to the output end for the differential pressure pickup 24 for moving net mechanism 2, another termination capacitor C2 one end, the electric capacity C2 other end Ground connection, the "+" level of a resistance R3 termination amplifier 1, another to terminate on resistance R1 and electric capacity C1 line, resistance R4 one end The "+" level of amplifier 2 is connect, another to terminate on resistance R2 and electric capacity C2 line, the "-" level of amplifier 1 is defeated with amplifier 1 Go out end to be connected, the port 7 of amplifier 1 connects+12V voltages, and port 4 connects -15V voltages, and electric capacity C3 mono- terminates+12V voltages, the other end Ground connection, electric capacity C4 mono- terminates -15V voltages, and other end ground connection, the "-" level of amplifier 2 is connected with the output end of amplifier 2, amplified The port 7 of device 2 connects+15V voltages, and port 4 connects -12V voltages, and electric capacity C5 mono- terminates+15V voltages, other end ground connection, electric capacity C6 mono- Termination -12V voltages, other end ground connection, resistance R5 mono- terminates the output end of amplifier 1, another terminating resistor R7 one end, resistance The output end of R7 another termination amplifier 3, the ends of electric capacity C7 mono- are connected on resistance R5 and resistance R7 line, and another terminate at is put The output end of big device 3, the "-" level of amplifier 3 is connected on resistance R5 and resistance R7 line, resistance R6 one end and amplifier 2 Output end is connected, another terminating resistor R8, resistance R8 other ends ground connection, and the "+" level of amplifier 3 is connected on resistance R6 and R8 line On, the port 4 of amplifier 3 connects+12V voltages, and port 11 connects -12V voltages, and resistance R9 mono- terminates the output end of amplifier 3, another The "-" level of amplifier 4 is terminated, the ends of resistance R10 mono- are connected on the line of resistance R9 and amplifier 4, another to terminate the defeated of amplifier 4 Go out end, resistance R12 one end is connected with its adjustable side, the other end and electric capacity C8 one end connection, electric capacity C8 another termination amplification The output end of device 4, the "+" level of the termination amplifiers 4 of resistance R11 mono-, other end ground connection, the port 4 of amplifier 4 connects+12V voltages, Port 11 connects -12V voltages, the voltage signal U1 after the output end output amplification of amplifier 4.

Embodiment 9, as Figure 1-10 shows, a kind of cleaning net of real-time embedded control change clothes drying unit, this reality automatically Apply example same as Example 8, wherein：

The trap circuit 10 includes resistance R13, R14, R15, R16, R17, electric capacity C9, C10, C11, amplifier 5；Wherein Resistance R13 one end is connected with the output end of the amplifier 4 in amplifying circuit 11, another terminating resistor R14 one end, resistance R14 Another termination amplifier 5 "+" level, electric capacity C9 one end is connected in the line of the amplifier 4 in resistance R13 and amplifying circuit 11 On, the other end is connected with electric capacity C10, and the electric capacity C10 other end is connected on the line of resistance R14 and amplifier 5, electric capacity C11 One end is connected on resistance R13 and resistance R14 line, other end ground connection, and resistance R15 one end is connected in electric capacity C9 and C10 line On, the other end is connected with the output end of amplifier 5, and resistance R16 one end ground connection, the other end is connected with resistance R17, amplifier 5 "-" level is connected on resistance R16 and R17 line, and the resistance R17 other end is connected with the output end of amplifier 5, amplifier 5 Output end output voltage U2 is simultaneously connected with the one-chip computer module 8 in control module 1.

Embodiment 10：As Figure 1-10 shows, a kind of cleaning net of real-time embedded control changes clothes drying unit automatically, including Control module 1, automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5, apparatus for treating sewage 6, Cistern 7；The jet-propelled dedusting mechanism 3 is connected with water jet dedusting mechanism 4, and water jet dedusting mechanism 4 connects with baker 5 Connect, apparatus for treating sewage 6 is connected with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, cistern 7 respectively, cistern 7 and water spray Formula dedusting mechanism 4 is connected, and automatic screen pack exchanger structure 2 connects with jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively Connect, control module 1 is connected with automatic screen pack exchanger structure 2, jet-propelled dedusting mechanism 3, water jet dedusting mechanism 4, baker 5 respectively.

The control module 1 include one-chip computer module 8, winding motor drive circuit 9, trap circuit 10, amplifying circuit 11, Heater circuit 12, blowing circuit 13, air compressor drive circuit 14；Wherein one-chip computer module 8 drives with winding motor respectively Circuit 9, trap circuit 10, heater circuit 12, blowing circuit 13, air compressor drive circuit 14 be connected, amplifying circuit 11 with Trap circuit 10 is connected.

The automatic screen pack exchanger structure 2 includes support frame I 15, transmission wheel I 16, discharging frame 17, cleaning net volume axle 18, working window Mouth 19, support frame II 20, transmission wheel II 21, roller 22, winding motor 23, differential pressure pickup 24；Wherein transmission wheel I 16 utilizes it Hollow internal structure is enclosed on support frame I 15, and discharging frame 17 is fixed on transmission wheel I 16, and cleaning net is placed on the top layer of discharging frame 17 Spool 18, the cleaning net that the one end of cleaning net volume axle 18 is extended passes sequentially through operation window 19, jet-propelled dedusting mechanism 3, water spray Formula dedusting mechanism 4, baker 5, which are reached, is connected with differential pressure pickup 24 on the retracting device of opposite side, operation window 19, reclaim dress Put comprising support frame II 20, transmission wheel II 21, roller 22, winding motor 23, transmission wheel II 21 utilizes its hollow internal structure set On support frame II 20, roller 22 is taken turns on II 21 through transmission, and is secured to, and the bottom of transmission wheel II 21 is equipped with a winding Motor 23, is mutually permanently connected by gear.

The jet-propelled dedusting mechanism 3 include air compressor 41, appendix IV 42, one-level air chamber 43, two grades of air chambers 44, Air storage chamber 45, high pressure air rifle I 46, high pressure air rifle II 47, high pressure air rifle III 48, appendix III 49, appendix II 50, appendix I 51；Wherein the gas outlet of air compressor 41 is connected with one end of appendix IV 42, the other end and the one-level gas of appendix IV 42 Room 43 be connected, one-level air chamber 43 is connected with two grades of air chambers 44, and two grades of air chambers 44 are connected with air storage chamber 45, air storage chamber 45 respectively with it is defeated Tracheae III 49, appendix II 50, appendix I 51 one end be connected, appendix III 49, appendix II 50, appendix I 51 it is another End is connected with high pressure air rifle III 48, high pressure air rifle II 47, high pressure air rifle I 46 respectively.

The water jet dedusting mechanism 4 includes High-Pressure Compressor water pump 32, water-supply-pipe II 33, switch 34, switching Pipe I 35, switching pipe II 36, switching pipe III 37, giant III 38, giant II 39, giant I 40, water-supply-pipe I 52； Wherein the water inlet of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe I 52, the other end of water-supply-pipe I 52 and retaining Pond 7 is connected, and the delivery port of High-Pressure Compressor water pump 32 is connected with one end of water-supply-pipe II 33, the other end of water-supply-pipe II 33 It is connected with switch 34, the one end of switch 34 respectively with switching pipe I 35, switching pipe II 36, switching pipe III 37 is connected, switching pipe I 35, switching pipe II 36, switch pipe III 37 the other end respectively with giant I 40, giant II 39, giant III 38 It is connected.

The baker 5 includes electric network 30, fan 31, ground wire 53, fan electromotor 54；Wherein electric network 30 is used as electricity In the heater circuit 12 of pyrogen part Access Control module 1, fan 31 and blowing circuit 13 of the fan electromotor 54 as control module 1 Component access blowing circuit 13 in.

The apparatus for treating sewage 6 includes sewage collecting funnel 25, sewage conveying tube 26, resistance sieve filtration water clarifier 27, purification Water delivery pipe 28, secondary waste water return duct 29；Wherein one end phase of the delivery port of sewage collecting funnel 25 and sewage conveying tube 26 Even, the other end of sewage conveying tube 26 is connected with the water inlet of resistance sieve filtration water clarifier 27, the purification of resistance sieve filtration water clarifier 27 Water delivery port is connected with one end of purified water delivery pipe 28, and the wastewater effluent mouthful of resistance sieve filtration water clarifier 27 flows back with secondary waste water One end of pipe 29 is connected, and the other end of purified water delivery pipe 28 is connected with the water inlet of cistern 7, secondary waste water return duct 29 The other end is connected with the water inlet of sewage collecting funnel 25.

The amplifying circuit 11 include resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, electric capacity C1, C2, C3, C4, C5, C6, C7, C8, amplifier 1, amplifier 2, amplifier 3, amplifier 4；Wherein resistance R1 one end, which is connected to, moves net The output end of the differential pressure pickup 24 of mechanism 2, another termination capacitor C1 one end, electric capacity C1 other end ground connection, resistance R2's One end is connected to the output end for the differential pressure pickup 24 for moving net mechanism 2, another termination capacitor C2 one end, the electric capacity C2 other end Ground connection, the "+" level of a resistance R3 termination amplifier 1, another to terminate on resistance R1 and electric capacity C1 line, resistance R4 one end The "+" level of amplifier 2 is connect, another to terminate on resistance R2 and electric capacity C2 line, the "-" level of amplifier 1 is defeated with amplifier 1 Go out end to be connected, the port 7 of amplifier 1 connects+12V voltages, and port 4 connects -15V voltages, and electric capacity C3 mono- terminates+12V voltages, the other end Ground connection, electric capacity C4 mono- terminates -15V voltages, and other end ground connection, the "-" level of amplifier 2 is connected with the output end of amplifier 2, amplified The port 7 of device 2 connects+15V voltages, and port 4 connects -12V voltages, and electric capacity C5 mono- terminates+15V voltages, other end ground connection, electric capacity C6 mono- Termination -12V voltages, other end ground connection, resistance R5 mono- terminates the output end of amplifier 1, another terminating resistor R7 one end, resistance The output end of R7 another termination amplifier 3, the ends of electric capacity C7 mono- are connected on resistance R5 and resistance R7 line, and another terminate at is put The output end of big device 3, the "-" level of amplifier 3 is connected on resistance R5 and resistance R7 line, resistance R6 one end and amplifier 2 Output end is connected, another terminating resistor R8, resistance R8 other ends ground connection, and the "+" level of amplifier 3 is connected on resistance R6 and R8 line On, the port 4 of amplifier 3 connects+12V voltages, and port 11 connects -12V voltages, and resistance R9 mono- terminates the output end of amplifier 3, another The "-" level of amplifier 4 is terminated, the ends of resistance R10 mono- are connected on the line of resistance R9 and amplifier 4, another to terminate the defeated of amplifier 4 Go out end, resistance R12 one end is connected with its adjustable side, the other end and electric capacity C8 one end connection, electric capacity C8 another termination amplification The output end of device 4, the "+" level of the termination amplifiers 4 of resistance R11 mono-, other end ground connection, the port 4 of amplifier 4 connects+12V voltages, Port 11 connects -12V voltages, the voltage signal U1 after the output end output amplification of amplifier 4.

The trap circuit 10 includes resistance R13, R14, R15, R16, R17, electric capacity C9, C10, C11, amplifier 5；Wherein Resistance R13 one end is connected with the output end of the amplifier 4 in amplifying circuit 11, another terminating resistor R14 one end, resistance R14 Another termination amplifier 5 "+" level, electric capacity C9 one end is connected in the line of the amplifier 4 in resistance R13 and amplifying circuit 11 On, the other end is connected with electric capacity C10, and the electric capacity C10 other end is connected on the line of resistance R14 and amplifier 5, electric capacity C11 One end is connected on resistance R13 and resistance R14 line, other end ground connection, and resistance R15 one end is connected in electric capacity C9 and C10 line On, the other end is connected with the output end of amplifier 5, and resistance R16 one end ground connection, the other end is connected with resistance R17, amplifier 5 "-" level is connected on resistance R16 and R17 line, and the resistance R17 other end is connected with the output end of amplifier 5, amplifier 5 Output end output voltage U2 is simultaneously connected with the one-chip computer module 8 in control module 1.

The winding motor drive circuit 9 include resistance R18, R19, R20, R21, R22, R23, N-type IGFET pipes Q1, Q2, p-type IGFET pipe Q3, Q4,5V power supplys U1, ground connection U2, winding motor M；Wherein 5V power supplys U1 and resistance R21 one end phase Even, resistance R21 other end one end respectively with resistance R18, resistance R23 one end, N-type IGFET pipes Q1 emitter e, N Type IGFET Q2 emitter e is connected, and the one end of resistance R18 respectively with resistance R19, resistance R20 is connected, resistance R19 and N-type IGFET pipes Q1 base stage b is connected, and resistance R20 is connected with p-type IGFET pipes Q3 base stage, p-type IGFET pipes Q3 emitter e Emitter e with p-type IGFET pipes Q4 is in parallel, while access ground connection U2, N-type IGFET pipes Q2 base stage access resistance R22 One end, resistance R22 other end access one-chip computer module 8, p-type IGFET pipes Q4 base stage is in parallel with the resistance R23 other end, One-chip computer module 8 is accessed simultaneously, N-type IGFET pipes Q1 colelctor electrode is in parallel with N-type IGFET pipes Q2 colelctor electrode, access simultaneously Winding motor M one end；P-type IGFET pipes Q3 colelctor electrode is in parallel with p-type IGFET pipes Q4 colelctor electrode, while accessing winding The motor M other end.

The specific embodiment of the present invention is explained in detail above in conjunction with accompanying drawing, but the present invention is not limited to above-mentioned reality Example is applied, can also be on the premise of present inventive concept not be departed from the knowledge that those of ordinary skill in the art possess Various changes can be made.

Claims (9)

1. a kind of cleaning net of real-time embedded control changes clothes drying unit automatically, it is characterised in that：Including control module（1）、 Automatic screen pack exchanger structure（2）, jet-propelled dedusting mechanism（3）, water jet dedusting mechanism（4）, baker（5）, apparatus for treating sewage（6）、 Cistern（7）；The jet-propelled dedusting mechanism（3）With water jet dedusting mechanism（4）Connection, water jet dedusting mechanism（4）With baking Dry device（5）Connection, apparatus for treating sewage（6）Respectively with jet-propelled dedusting mechanism（3）, water jet dedusting mechanism（4）, cistern（7） Connection, cistern（7）With water jet dedusting mechanism（4）Connection, automatic screen pack exchanger structure（2）Respectively with jet-propelled dedusting mechanism（3）、 Water jet dedusting mechanism（4）, baker（5）Connection, control module（1）Respectively with automatic screen pack exchanger structure（2）, jet-propelled dust removal machine Structure（3）, water jet dedusting mechanism（4）, baker（5）Connection；

The automatic screen pack exchanger structure（2）Including support frame I（15）, transmission wheel I（16）, discharging frame（17）, cleaning net volume axle（18）、 Operation window（19）, support frame II（20）, transmission wheel II（21）, roller（22）, winding motor（23）, differential pressure pickup（24）； Wherein transmission takes turns I（16）Support frame I is enclosed on using its hollow internal structure（15）On, discharging frame（17）It is fixed on transmission wheel I （16）On, discharging frame（17）Place cleaning net volume axle in top layer（18）, clean net volume axle（18）The cleaning net that one end is extended is successively Pass through operation window（19）, jet-propelled dedusting mechanism（3）, water jet dedusting mechanism（4）, baker（5）Reach returning for opposite side Receiving apparatus, operation window（19）On be connected with differential pressure pickup（24）, retracting device include support frame II（20）, transmission wheel II （21）, roller（22）, winding motor（23）, transmission wheel II（21）Support frame II is enclosed on using its hollow internal structure（20）On, Roller（22）Through transmission wheel II（21）On, and be secured to, transmission wheel II（21）Bottom be equipped with a winding motor（23）, It is mutually permanently connected by gear.

2. the cleaning net of real-time embedded control according to claim 1 changes clothes drying unit automatically, it is characterised in that：Institute State control module（1）Including one-chip computer module（8）, winding motor drive circuit（9）, trap circuit（10）, amplifying circuit（11）、 Heater circuit（12）, blowing circuit（13）, air compressor drive circuit（14）；Wherein one-chip computer module（8）Respectively with winding Motor-drive circuit（9）, trap circuit（10）, heater circuit（12）, blowing circuit（13）, air compressor drive circuit（14） It is connected, amplifying circuit（11）With trap circuit（10）It is connected.

3. the cleaning net of real-time embedded control according to claim 1 changes clothes drying unit automatically, it is characterised in that：Institute State jet-propelled dedusting mechanism（3）Including air compressor（41）, appendix IV（42）, one-level air chamber（43）, two grades of air chambers（44）、 Air storage chamber（45）, high pressure air rifle I（46）, high pressure air rifle II（47）, high pressure air rifle III（48）, appendix III（49）, appendix II （50）, appendix I（51）；Wherein air compressor（41）Gas outlet and appendix IV（42）One end be connected, appendix IV （42）The other end and one-level air chamber（43）It is connected, one-level air chamber（43）With two grades of air chambers（44）It is connected, two grades of air chambers（44）With Air storage chamber（45）It is connected, air storage chamber（45）Respectively with appendix III（49）, appendix II（50）, appendix I（51）One end phase Even, appendix III（49）, appendix II（50）, appendix I（51）The other end respectively with high pressure air rifle III（48）, high pressure air rifle Ⅱ（47）, high pressure air rifle I（46）It is connected.

4. the cleaning net of real-time embedded control according to claim 1 changes clothes drying unit automatically, it is characterised in that：Institute State water jet dedusting mechanism（4）Including High-Pressure Compressor water pump（32）, water-supply-pipe II（33）, switch（34）, switching pipe I （35）, switching pipe II（36）, switching pipe III（37）, giant III（38）, giant II（39）, giant I（40）, it is defeated Water pipe I（52）；Wherein High-Pressure Compressor water pump（32）Water inlet and water-supply-pipe I（52）One end be connected, water-supply-pipe I （52）The other end and cistern（7）It is connected, High-Pressure Compressor water pump（32）Delivery port and water-supply-pipe II（33）One End is connected, water-supply-pipe II（33）The other end and switch（34）It is connected, switch（34）Respectively with switching pipe I（35）, switching Pipe II（36）, switching pipe III（37）One end be connected, switch pipe I（35）, switching pipe II（36）, switching pipe III（37）The other end Respectively with giant I（40）, giant II（39）, giant III（38）It is connected.

5. the cleaning net of real-time embedded control according to claim 1 changes clothes drying unit automatically, it is characterised in that：Institute State baker（5）Including electric network（30）, fan（31）, ground wire（53）, fan electromotor（54）；Wherein electric network（30）As Electrothermal part Access Control module（1）Heater circuit（12）In, fan（31）With fan electromotor（54）It is used as control module（1） Blowing circuit（13）Component access blowing circuit（13）In.

6. the cleaning net of real-time embedded control according to claim 1 changes clothes drying unit automatically, it is characterised in that：Institute State apparatus for treating sewage（6）Including sewage collecting funnel（25）, sewage conveying tube（26）, resistance sieve filtration water clarifier（27）, purified water Delivery pipe（28）, secondary waste water return duct（29）；Wherein sewage collecting funnel（25）Delivery port and sewage conveying tube（26）'s One end is connected, sewage conveying tube（26）The other end with resistance sieve filtration water clarifier（27）Water inlet be connected, resistance be sieved through filter water purification Device（27）Purified water delivery port and purified water delivery pipe（28）One end be connected, resistance sieve filtration water clarifier（27）Wastewater effluent Mouth and secondary waste water return duct（29）One end be connected, purified water delivery pipe（28）The other end and cistern（7）Water inlet It is connected, secondary waste water return duct（29）The other end and sewage collecting funnel（25）Water inlet is connected.

7. the cleaning net of real-time embedded control according to claim 2 changes clothes drying unit automatically, it is characterised in that：Institute State amplifying circuit（11）Including resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, electric capacity C1, C2, C3, C4, C5, C6, C7, C8, amplifier 1, amplifier 2, amplifier 3, amplifier 4；Wherein resistance R1 one end, which is connected to, moves net mechanism（2）'s Differential pressure pickup（24）Output end, another termination capacitor C1 one end, electric capacity C1 the other end ground connection, a resistance R2 termination Automatic screen pack exchanger structure（2）Differential pressure pickup（24）Output end, another termination capacitor C2 one end, electric capacity C2 another termination Ground, the "+" level of a resistance R3 termination amplifier 1, another to terminate on resistance R1 and electric capacity C1 line, resistance R4 mono- is terminated The "+" level of amplifier 2, another to terminate on resistance R2 and electric capacity C2 line, the "-" level of amplifier 1 and the output of amplifier 1 End is connected, and the port 7 of amplifier 1 connects+12V voltages, and port 4 connects -15V voltages, and electric capacity C3 mono- terminates+12V voltages, another termination Ground, electric capacity C4 mono- terminates -15V voltages, and other end ground connection, the "-" level of amplifier 2 is connected with the output end of amplifier 2, amplifier 2 port 7 connects+15V voltages, and port 4 connects -12V voltages, and electric capacity C5 mono- terminates+15V voltages, other end ground connection, electric capacity C6 one end - 12V voltages are connect, other end ground connection, resistance R5 mono- terminates the output end of amplifier 1, another terminating resistor R7 one end, resistance R7 Another termination amplifier 3 output end, the ends of electric capacity C7 mono- are connected on resistance R5 and resistance R7 line, another to terminate at amplification The output end of device 3, the "-" level of amplifier 3 is connected on resistance R5 and resistance R7 line, resistance R6 one end and amplifier 2 it is defeated Go out end to be connected, another terminating resistor R8, resistance R8 other ends ground connection, the "+" level of amplifier 3 is connected on resistance R6 and R8 line On, the port 4 of amplifier 3 connects+12V voltages, and port 11 connects -12V voltages, and resistance R9 mono- terminates the output end of amplifier 3, another The "-" level of amplifier 4 is terminated, the ends of resistance R10 mono- are connected on the line of resistance R9 and amplifier 4, another to terminate the defeated of amplifier 4 Go out end, resistance R12 one end is connected with its adjustable side, the other end and electric capacity C8 one end connection, electric capacity C8 another termination amplification The output end of device 4, the "+" level of the termination amplifiers 4 of resistance R11 mono-, other end ground connection, the port 4 of amplifier 4 connects+12V voltages, Port 11 connects -12V voltages, the voltage signal U1 after the output end output amplification of amplifier 4.

8. the cleaning net of real-time embedded control according to claim 2 changes clothes drying unit automatically, it is characterised in that：Institute State trap circuit（10）Including resistance R13, R14, R15, R16, R17, electric capacity C9, C10, C11, amplifier 5；Wherein resistance R13 One end and amplifying circuit（11）In amplifier 4 output end be connected, another terminating resistor R14 one end, resistance R14's is another The "+" level of amplifier 5 is terminated, electric capacity C9 one end is connected in resistance R13 and amplifying circuit（11）In amplifier 4 line on, separately One end is connected with electric capacity C10, and the electric capacity C10 other end is connected on the line of resistance R14 and amplifier 5, and electric capacity C11 one end connects On resistance R13 and resistance R14 line, other end ground connection, resistance R15 one end is connected on electric capacity C9 and C10 line, another End is connected with the output end of amplifier 5, and resistance R16 one end ground connection, the other end is connected with resistance R17, the "-" cascade of amplifier 5 On resistance R16 and R17 line, the resistance R17 other end is connected with the output end of amplifier 5, and the output end of amplifier 5 is defeated Go out voltage U2 and and control module（1）In one-chip computer module（8）Connection.

9. the cleaning net of real-time embedded control according to claim 2 changes clothes drying unit automatically, it is characterised in that：Institute State winding motor drive circuit（9）Including resistance R18, R19, R20, R21, R22, R23, N-type IGFET pipes Q1, Q2, p-type IGFET pipe Q3, Q4,5V power supplys U1, ground connection U2, winding motor M；Wherein 5V power supplys U1 is connected with resistance R21 one end, resistance R21 other end one end respectively with resistance R18, resistance R23 one end, N-type IGFET pipes Q1 emitter e, N-type IGFET Q2 emitter e is connected, and the one end of resistance R18 respectively with resistance R19, resistance R20 is connected, resistance R19 and N-type IGFET pipes Q1 Base stage b be connected, resistance R20 is connected with p-type IGFET pipes Q3 base stage, p-type IGFET pipes Q3 emitter e and p-type IGFET Pipe Q4 emitter e is in parallel, while accessing ground connection U2, N-type IGFET pipes Q2 base stage access resistance R22 one end, resistance R22 other end access one-chip computer module（8）, p-type IGFET pipes Q4 base stage is in parallel with the resistance R23 other end, connects simultaneously Enter one-chip computer module（8）, N-type IGFET pipes Q1 colelctor electrode is in parallel with N-type IGFET pipes Q2 colelctor electrode, while accessing winding Motor M one end；P-type IGFET pipes Q3 colelctor electrode is in parallel with p-type IGFET pipes Q4 colelctor electrode, while accessing winding motor The M other end.